Our Plan to go to the Moon

Wow! What a surprise that was. Pretty soon we were talking with
professor R.O.Dentia about how we were going to the moon. You would
be surprised to learn that we weren't just going to climb in a spaceship
and go. First, we had to find an especially good place on the moon
to land. And we needed a very special spaceship we could live in
for awhile, and for that matter, we needed a moonhouse. In fact,
we needed to send supplies and setup some stuff on the moon even before
we got there! All the details needed to be figured out before we
left the Earth, because it's pretty expensive just to go to the moon in
the first place. Going back and forth for things we forgot would
be too expensive. So here's a few of the things we had to think about:

1. What kind of rocket did we need?

2. Where were we going to land?

3. Where would we get fresh air?

4. How would we get enough to eat?

5. Where would we get water?

6. What about trash (and other stuff like that)?

7. What kind of a house do we stay in?

8. What do we do for power?

9. How do we talk back and forth to each other?

10. How do we get around?

These were going to be really hard questions to answer, but we needed
to find those answers, or we might as well stay home. We already
knew some stuff about the moon from the adventures of the Apollo astronauts
and from other scientists.
But we still needed to learn more.

What We Already Knew

This is what we knew about the moon already. The moon goes around
the earth about once every 28 days, and a lunar day is also 28 (earth)
days long. That means that the sun is in the sky for two whole weeks,
then the lunar daytime is followed by two weeks of lunar nighttime.
With all that sunlight, it gets really hot during the lunar day (about
250° F/121° C), and it gets really cold during the lunar night
(about -250° F/-156° C). There is only the tiniest, tiniest
bit of an atmosphere on the moon, but it's so thin, most people would say
there's no atmosphere there at all. It's too thin to breathe, airplanes
won't work in it, parachutes won't work in it, meteors and rockets won't
slow down in it, and there are no clouds or weather in it. The dirt
on the moon is a mix of rocks and a lot of really fine dust, and it's made
of almost the same chemicals as dirt on Earth. The moon's gravity
is 1/6th as strong as earth's gravity. If you can jump two feet (0.6
meters) high on earth, you'ld be able to jump about 12 feet (3.6
meters) high on the moon!

Even though we only knew a little about the moon, we knew a whole lot
about being rodents. We live in the same kind of an environment that
people do: we need fresh air and water, and the temperature can't
be too hot or too cold -- around room temperature (68° F/20° C)
is about the best. We like to eat mostly plants and grains.
We don't need quite as much water as people do, but we still need enough
to drink. Here's what NASA decided a grown person needed each
day to breathe, eat, drink, and stay clean and healthy on a Space Station:

Oxygen

0.83 kg

Food (dry)

0.62 kg

- water in food

1.15 kg

Drinking Water

1.61 kg

Cooking Water

0.79 kg

Water for washing

25.52 kg

Water for the toilet

0.49 kg

Every person also creates a bunch of waste that has to be taken care
of. Here's NASA's table of how much waste a person would create each
day on a space station:

Carbon Dioxide

1.00 kg

Water from Sweat

and breathing

2.28 kg

Water from Urine, etc.

1.59 kg

Water from cooking

0.04 kg

Water from washing

25.53 kg

Water for the toilet

0.49 kg

Waste Solids

0.11 kg

Since a moonbase is pretty much like a space station, we figured that
these numbers were about right, or at least they were a pretty good guess
for what we would need.

But before long we noticed we had several really big problems we had
to figure out. Every day, we were going to use up a lot of oxygen
and create a lot of carbon dioxide from our breathing. Also, we were
going to use up a lot of water, and create a lot of urine and other
waste. How were we going to permanently live on the moon with all
this waste, and no air outside? Not only that, every month the outside
temperature was hotter than boiling water for two weeks, then so cold your
whiskers would crack off for the next two weeks. These were some
pretty big problems all right...

How were we going to solve them?

Before you go on, think about it for yourself for a few minutes.
Go over questions 3 through 6 at the top of this page, and think about
what you would do...